While we’re waiting for science results, the main item of interest on InSight has been the continuing work to solve the problem with the Heat Flow and Physical Properties Probe (HP3, pronounced "H-P-cubed"). Its main component is a self-hammering mole that’s supposed to jackhammer 5 meters down into the Martian soil, unreeling an instrumented tether that it’ll use to measure the rate of heat flow out of the Martian interior and also the way that the Martian surface responds to daily and seasonal temperature changes. The issue is that the self-hammering mole hasn’t managed to penetrate the surface, stopping at roughly 20 centimeters depth despite very insistent hammering. As part of the anomaly recovery effort, last weekend mission engineers lifted the mole’s housing completely off the surface and set it down elsewhere, exposing the top of the mole sticking out a hole that is, very surprisingly, more than twice as wide as the mole. More on the mole hole below.

NASA / JPL-Caltech

Top of the InSight Mole Exposed, Sol 209

Pn sol 209 (29 June 2019), InSight used its grapple to pivk up the heat probe instrument's housing, exposing the unburied "mole" inside a surprisingly large hole.

Whether you're new to the mission or a seasoned expert, The Planetary Society's Insight mission page is your go-to resource guide.

Exposing the Mole Hole

This was a risky operation. HP3 team lead Tilmann Spohn wrote on 6 June in his excellent and detailed logbook on the DLR website: “If the Mole or the tether are indeed snagged in the [HP3 support structure assembly], then we may actually pull the mole out. Therefore, [an] operations scheme has been designed where the lifting occurs in several steps with careful examinations on the way. This is then the major reason why the operation will take a while, until mid next month or possibly even later.”

Sol 209 (29 June): Lift arm, lifting HP3 housing a further 13 centimeters to a total of 25 centimeters (pic, and notice how taut the flat tether cable connecting the mole to the lander is)

Sol 209 (29 June, continued): Place HP3 housing on the ground between InSight and the mole hole (pic)

As I mentioned, the great size of the hole around the mole was a big surprise. Spohn wrote:

The first lift already revealed the pit that surrounds the mole. I along with others from the team were a bit shocked when we saw how large the pit actually is. Its diameter is about two times the diameter of the mole. The bottom of the pit is difficult to see (we expect better images once the lift is complete) but it seems that it is about 2-2.5 mole diameters deep. A mole diameter is 27mm. So the mole must have compacted the regolith quite a bit. In addition to its own volume it must have displaced about half of its buried volume.

There seems to be a little rim surrounding the pit but most of the displacement likely was compaction. We cannot see the inclination of the wall very well but it at least seems to me that the mole was "precessing" (like a spinning top) and carved a conical hole....

In any case, the apparent compaction seems to be compatible with a large porosity, relatively low density, and with the low seismic velocity of 120 m/s reported by the SEIS team, and the low thermal inertia (200 TIU) reported by HP3. There have been suggestions that maybe there is a stone or stones at depth that the mole may have displaced and that the pit is indicating the displacement of that stone. We will have to see.

Filling the Mole Hole

The size of the mole hole is a huge surprise but is also diagnostic of the problem and indicates a (probably) workable solution. The only way to make a hole that big without actually excavating material is to compact it. In terms of materials familiar to us Earth dwellers, the soil around the mole is behaving a lot more like wet snow than it is like sand. For the mole’s self-hammering drive to work, it needs friction to keep it from just bouncing; it needs the surface to behave more like sand (or, if you’re into Minecraft, like gravel), falling into any excavated hole. If the walls of the hole are compacting rather than collapsing as the mole hammers, there’s insufficient friction, and the mole just bounces around and has no hope of penetrating. This is bad.

But. InSight has a secret weapon, a tool it wasn’t even supposed to have. It has a shovel, mounted on the end of the arm, inherited from the canceled Mars Surveyor lander mission. InSight can use the shovel to press down on the surface, tamping down the soil like you tamp dirt around a transplanted root ball, thereby enclosing the HP3 mole in sand and giving it the friction it needs to keep going. One way or another, they plan to “fill the pit,” Spohn says, and hopefully when they’ve done that the mole will be able to proceed downward.

So for the next few weeks to months, the team will keep playing in the Martian sandbox. But there’s real hope that the efforts will end with the burial of the mole, to some depth, allowing that part of InSight’s Martian experiment to begin.

Comments & Sharing

3

Comments

dougforworldsexplr: 2019/07/02 11:30 CDT

Hi Emily;
Thanks for the informative article including the part about further detection of Marsquakes. In relation to Marsquakes including those detected by Mars Insight I have some questions. One is what areas on the surface of Mars do they correspond to if they are at or near the surface of Mars? Also what season of Mars in the Martian year was in place when the Marsquakes happened at those locations and what kind of terrain or composition of soil is at those locations on Mars such as basalt, carbonates or other rock? As I'm sure you are well aware the Curiosity rover recently measured a large spike in methane level in the Gale Crater in the current area there where there is a high level of clay type rocks. My main question is would Mars Insight be able to detect any ground motion that could produce such a methane spike or previous ones such as the past one at Nili Fossae and how well do they correspond to warmer weather at the time that could cause partial melting or softening of the ground such as melting of permafrost on Earth?

spaceradiation.eu: 2019/07/03 01:03 CDT

I wish the mole good luck, especielly that it represents Polish mole population! Be brave and dig !

Mark Rogers: 2019/07/18 04:58 CDT

Ha ha, love the Minecraft reference. My son has roped me in to Minecraft, I assume your children have done the same.